Hot-forming line and method for producing hot-formed and press-quenched sheet-steel products

ABSTRACT

A hot-forming line for producing hot-formed and press-quenched sheet-steel products includes a temperature control station for heating at least one sheet-metal blank, a hot-forming and press-quenching tool for hot forming and press quenching the heated sheet-metal blank and at least one blank gripper for gripping and transferring the sheet-metal blank before and/or after hot forming and press quenching. The at least one blank gripper forms at least one contact region with the sheet-metal blank during the gripping of the sheet-metal blank. Also, the at least one blank gripper is configured to cool the sheet-metal blank in the at least one contact region during gripping and transfer of the sheet-metal blank before hot forming and press quenching and/or heat the sheet-metal blank in the at least one contact region during gripping and transfer after hot forming and press quenching.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims priority to and the benefit of GermanApplication Number 102018207798.3 filed on May 17, 2018. The disclosureof the above application is incorporated herein by reference.

FIELD

The present disclosure relates to a hot-forming line for producinghot-formed and press-quenched sheet-steel products.

BACKGROUND

The statements in this section merely provide background informationrelated to the present disclosure and may not constitute prior art.

The prior art discloses the practice of producing sheet-steel productsby means of hot forming and press quenching. For this purpose, asheet-metal blank composed of a hardenable steel alloy is heated atleast in some region or regions to a temperature above theaustenitization temperature. Following heating, the sheet-metal blank isplaced in a hot-forming tool and hot formed in this hot state. Oncompletion of the hot-forming process, the formed component is cooled inthe hot-forming tool with a rapidity such that hardening of the materialstructure is initiated. This is referred to as a press-quenchingprocess.

To carry out a production process of this kind, there is therefore aneed for a heating station, also referred to as a temperature controlstation, and a hot-forming and press-quenching tool. In the temperaturecontrol station, the sheet-metal blank is held, for example, at atemperature of about 930° C. for a period of a few minutes, e.g. about 6minutes. After hot forming, the sheet-metal blank, composed of thematerial 22MnB5 by way of example, is cooled rapidly at a cooling rategreater than 27 K/s in order to form a martensitic microstructure in thesheet-metal blank to achieve the desired hardening. Between theindividual stations or tools, manipulators, generally in the form ofindustrial robots, are used to transfer the sheet-metal blanks orcomponents from one station to the next.

A hot-forming line of this kind is shown by US 2017/0183755 A1, forexample. Blank grippers that can be moved in a linear manner along alinear conveyor system are used as manipulators to transfer thesheet-metal blanks from the temperature control station to thehot-forming and press-quenching tool.

U.S. Pat. Nos. 4,712,413 A and 4,569,218 A each disclose an apparatusfor forming heated metal preforms, in which the heated metal preformsare transferred to a forming tool by a gripper. In order to preventexcessive heat loss from the preforms during transfer by the gripperbefore forming of said preforms, this gripper is equipped with anelectric heating device for heating gripper claws.

RU 2 468 883 C1 discloses a forging manipulator with gripper claws,wherein the contact regions of the gripper claws, which are in contactwith a workpiece, have a zirconium coating to reduce thermalconductivity

CN 103192380 A describes a robot gripper which is attached to a robotarm and which can be heated by means of a heating device, depending onan ambient temperature.

U.S. Pat. No. 6,499,777 B1 has furthermore disclosed a gripping memberfor transferring hot-worked wafers, which are cooled while beingtransferred by means of the gripping member. The gripping member hasmeans for heat transfer by convection and heat conduction.

U.S. Pat. No. 9,061,340 B2 discloses a hot-forming and press-quenchingtool for hot forming and press quenching tailored shaped parts, whereinthe shaped part made up of two sheet-metal blanks of differentthickness, which are joined together by means of welding, is formed andhardened together with its weld seam in the hot-forming andpress-quenching tool. Since it is not possible to produce a sufficientlylarge direct contact surface between the irregularly shaped weld seamand the hot-forming and press-quenching tool, it is proposed to providea recess in the hot-forming and press-quenching tool in the region ofthe weld seam of the shaped part to be formed, through which recesscoolant flows during the cooling and hardening process, ensuring thatthe weld seam region of the shaped part is cooled in the same way as theremaining region of the joined sheet-metal blanks. This is intended toprovide strength of the weld seam region.

Normally, the hot-formed and press-quenched sheet-steel products arejoined in a materially integral manner after production to othercomponents, e.g. other hot-formed and press-quenched sheet-steelproducts, by means of thermal joining techniques, e.g. by welding orspot welding. In this way, for example, connecting flanges of ahot-formed and press-quenched B pillar of a vehicle can be joined to therest of the vehicle structure or vehicle body.

Since thermal joining techniques such as welding lead to renewedintroduction of heat into the hot-formed and press-quenched sheet-metalproduct, however, a heat affected zone (HAZ) is formed at the welds,wherein the introduction of heat causes local conversion of themartensitic material structure of the sheet-metal product. Thus, afterwelding, some regions of the finished sheet-metal product can have ahigh hardness in the region of the welds, whereas other regions have alower hardness. Such a high hardness/lower hardness region is oftenreferred to as a “metallurgical notch.”

The present disclosure addresses the issues of hot formingpress-quenched sheet-steel products.

SUMMARY

In one form of the present disclosure, an improved hot-forming line forproducing hot-formed and press-quenched sheet-steel products isprovided. The improved hot-forming line provides for the production ofhot-formed and press-quenched sheet-metal products which, after beingjoined or connected to other (sheet-metal) components, in particular bythermal joining techniques such as welding, do not exhibit ametallurgical notch and any weakening of joints in the joinedsheet-metal parts. Moreover, the production of sheet-metal products ofthis kind can be advantageous in terms of time and costs.

It should be noted that the features presented individually in thefollowing description can be combined in any technically feasible way,giving rise to further forms and aspects of the present disclosure. Thedescription additionally characterizes and specifies the presentdisclosure, particularly in conjunction with the figures.

It should furthermore be noted that a conjunction “and/or” usedhereinbelow between two features and linking said features should alwaysbe interpreted to mean that, in a first aspect of the presentdisclosure, only the first feature is present, in a second aspect of thepresent disclosure, only the second feature is present and, in a thirdaspect of the present disclosure, both the first and the second featureare present.

In at least one form of the present disclosure a hot-forming line forproducing hot-formed and press-quenched sheet-steel products includes atemperature control station for heating at least one sheet-metal blank,a hot-forming and press-quenching tool for hot forming and pressquenching the heated sheet-metal blank and at least one blank gripperfor gripping and transferring the sheet-metal blank before and/or afterhot forming and press quenching. The temperature control station can bea furnace (chamber furnace, roller hearth furnace), or a unit whichheats the sheets, i.e. the sheet-metal blank, by contact heating oradjusts the temperature thereof in an appropriate manner by inductive orconductive introduction of heat.

In some aspects of the present disclosure, a single blank gripper (e.g.,a first blank gripper) is provided to transfer the sheet-metal blankbetween the temperature control station and the hot-forming andpress-quenching tool. In other aspects of the present disclosure, asingle blank gripper (e.g., a second blank gripper) is provided totransfer the sheet-metal blank between the hot-forming andpress-quenching tool and a processing and/or storage station arrangeddownstream of the latter in the hot-forming line. In still other aspectsof the present disclosure, a single blank gripper is provided totransfer the sheet-metal blank between the temperature control stationand the hot-forming and press-quenching tool and to transfer thesheet-metal blank between the hot-forming and press-quenching tool and aprocessing and/or storage station arranged downstream of the latter inthe hot-forming line. In still yet other aspects of the presentdisclosure, a plurality of blank grippers is provided to transfer thesheet-metal blank between the temperature control station and thehot-forming and press-quenching tool and another plurality of blankgrippers is provided to transfer the sheet-metal blank between thehot-forming and press-quenching tool and a processing and/or storagestation arranged downstream of the latter in the hot-forming line.

The at least one blank gripper forms at least one contact region withthe sheet-metal blank during gripping and transfer of the sheet-metalblank. The at least one blank gripper is configured to cool thesheet-metal blank during gripping and transfer, before hot forming andpress quenching, in the at least one contact region in relation to anuncontacted neighboring region of the sheet-metal blank adjoining thecontact region, and/or to heat the sheet-metal blank during gripping andtransfer, after hot forming and press quenching, in the at least onecontact region in relation to the uncontacted neighboring region of thesheet-metal blank adjoining the contact region. In other words, the atleast one blank gripper provides that the sheet-metal blank is cooled ina defined manner in the contact region in relation to the neighboringregion of the sheet-metal blank, before hot forming and press quenchingby means of the hot-forming and press-quenching tool, and/or providesthat the sheet-metal blank is heated in the contact region in relationto the neighboring region of the sheet-metal blank, after hot-formingand press quenching by means of the hot-forming and press-quenchingtool. Accordingly, the at least one blank gripper performs the functionof providing defined heat transfer from the contact region of thesheet-metal blank to the at least one blank gripper and/or from the atleast one blank gripper to the contact region of the sheet-metal blankin a desired manner.

In some aspects of the present disclosure, the at least one blankgripper includes a first blank gripper and a second blank gripper. Insuch aspects, the first blank gripper is configured to cool thesheet-metal blank in the at least one contact region in relation to theuncontacted neighboring region during gripping and transferring by thefirst blank gripper before hot forming and press quenching. Also, thesecond blank gripper is configured to heat the sheet-metal blank in theat least one contact region in relation to the uncontacted neighboringregion during gripping and transferring by the second blank gripperafter hot forming and press quenching.

In another form of the present disclosure, a hot-forming line forproducing hot-formed and press-quenched sheet-steel products includes atemperature control station for heating at least one sheet-metal blank,a hot-forming and press-quenching tool for hot forming and pressquenching the heated sheet-metal blank, a first blank gripper and asecond blank gripper. The first blank gripper is configured for grippingand transferring the sheet-metal blank before hot forming and pressquenching. Also, the first blank gripper forms and cools at least onecontact region with the sheet-metal blank in relation to an uncontactedneighboring region adjoining the contact region during the gripping ofthe sheet-metal blank by the first blank gripper. The second blankgripper is configured for gripping and transferring the sheet-metalblank after hot forming and press quenching. Also, the second blankgripper heats the at least one contact region in relation to theuncontacted neighboring region of the sheet-metal blank adjoining thecontact region during the gripping of the sheet-metal blank by thesecond blank gripper. In some aspects of the present disclosure, thefirst blank gripper is configured to place the sheet-metal blank in thehot-forming and press-quenching tool before hot forming and pressquenching, and the second blank gripper is configured to remove thesheet-metal blank from the hot-forming and press-quenching tool afterhot forming and press quenching.

In some aspects of the present disclosure, cooling is provided passivelyby heat conduction through the at least one blank gripper and/oractively by a coolant, e.g. water or oil, which cools the at least oneblank gripper and flows at least partially through the latter. Heatingcan be provided by an appropriate heating device formed in or on the atleast one blank gripper, e.g. by electric heating wires.

Cooling only the contact region of the sheet-metal blank before it isformed and press quenched in the hot-forming and press-quenching toolhas the effect that the martensitic microstructure is formed in thesheet-metal material with the desired high hardness only in theuncontacted region of the sheet-metal blank during press quenching. Incontrast, the contact region has a metal structure which issignificantly softer or more ductile than the martensitic structure,this being particularly advantageous in respect of possible subsequentjoining with other components/sheet-metal blanks, brought about, inparticular, by welding/spot welding, in precisely this contact region ofthe sheet-metal blank, since this contact or joining region is notweakened by the local introduction of heat due to welding.

Heating only of the contact region of the sheet-metal blank after it hasbeen formed and press quenched in the hot-forming and press-quenchingtool has the effect that the hard martensitic microstructure of thesheet-metal blank produced in the contact region by the press quenchingis converted into a softer, more ductile microstructure, this beingparticularly advantageous in respect of possible subsequent joining withother components/sheet-metal blanks, brought about, in particular, bywelding/spot welding, in precisely this contact region of thesheet-metal blank, since this contact or joining region is not weakenedby the local introduction of heat due to welding. In other words, theselective heating of the martensitic microstructure present in thecontact region of the sheet-metal blank leads to “tempering” of thematerial structure precisely in this region.

The heat treatment of the contact region of the sheet-metal blank duringgripping and transfer by the sheet-metal gripper makes it possible tocompletely dispense with expensive subsequent additional specialaftertreatment of this region or regions of the sheet-metal blank. Theproduction time and costs for the production processes are therebysignificantly reduced.

In some aspects of the present disclosure, the at least one blankgripper is configured to cool the contact region at a cooling rate ofless than 27 K/s before the hot forming and press quenching of thesheet-metal blank. This reduces (e.g., prevents) martensiticmicrostructure formation in the contact region of the sheet-metal blankduring cooling by the at least one blank gripper.

In other aspects of the present disclosure, the at least one blankgripper is configured to heat the contact region after the hot formingand press quenching of the sheet-metal blank to a temperature greaterthan a temperature of the uncontacted neighboring region of thesheet-metal blank adjoining the contact region but to no more than 900°C., for example no more than about 700° C. in order to reduce stressesin the contact region of the sheet-metal blank, to reduce the hardnessin this region and to increase toughness. Depending on the metal alloyused for the sheet-metal blank, temperatures of about 500° C. or evenless, e.g. about 300° C., may also be provided.

In some aspects of the present disclosure, the at least one contactregion is arranged in a joining section of the sheet-metal blank, whichis distinguished by the fact that the hot-formed and press-quenchedsheet-steel product is subsequently joined to another (sheet-metal)component in this joining section, in particular in a materiallyintegral manner by means of thermal joining techniques such as weldingor spot welding.

In at least one aspect of the present disclosure, the joining section isa connecting flange of the sheet-metal blank, i.e. a substantially flatjoining section. In such an aspect, the contact region formed by thegripping of the sheet-metal blank by the at least one blank gripper islikewise flat, wherein the contact surface can be matched substantiallyto the size of the connecting flange.

In some aspects of the present disclosure, the at least one blankgripper is configured to place the sheet-metal blank in the hot-formingand press-quenching tool before hot forming and press quenching, and/orto remove the sheet-metal blank from the hot-forming and press-quenchingtool after hot forming and press quenching. In other words, the at leastone blank gripper, which is normally provided in any case for placingand/or removing the sheet-metal blank in or from the hot-forming andpress-quenching tool, can simultaneously be used for the heat treatmentof the contact region of the sheet-metal blank as described herein andadditional special blank grippers are not required for this purpose.

In another form of the present disclosure, a method for producinghot-formed and press-quenched sheet-steel products is provided. Themethod includes the following steps:

-   -   heating at least one sheet-metal blank in a temperature control        station;    -   hot forming and press quenching the heated sheet-metal blank in        a hot-forming and press-quenching tool; and    -   gripping and transferring the sheet-metal blank by at least one        blank gripper before and/or after hot forming and press        quenching.

The sheet-metal blank is cooled by the at least one blank gripper,before hot forming and press quenching, in at least one contact regionformed during gripping and transfer by the blank gripper, in relation toan uncontacted neighboring region of the sheet-metal blank adjoining thecontact region, and/or is heated by means of the blank gripper, afterhot forming and press quenching, in the at least one contact region, inrelation to the uncontacted neighboring region of the sheet-metal blankadjoining the contact region.

As regards method-related definitions of terms and as regards theeffects and advantages of methodological features, attention is drawn tothe above explanations of related definitions, effects and advantages inrespect of the apparatus according to the teachings of the presentdisclosure. It should be possible, mutatis mutandis, to make referenceto disclosures in this document in respect of the apparatus according tothe present disclosure also for the definition of the method accordingto the present disclosure, unless this is explicitly excluded herein. Itshould likewise be possible to make reference to disclosures in thisdocument in respect of the method according to the present disclosuremutatis mutandis for the definition of the apparatus according to thepresent disclosure, unless this is likewise explicitly excluded herein.

In some aspects of the present disclosure, the sheet-metal blank iscooled in the contact region by means of the at least one blank gripperat a cooling rate of less than 27 K/s before hot forming and pressquenching. In the alternative, or in addition to, the sheet-metal blankis heated in the contact region by the at least one blank gripper afterhot forming and press quenching to a temperature greater than atemperature of the uncontacted neighboring region of the sheet-metalblank adjoining the contact region but to no more than about 900° C.Lower temperatures in this regard, as already mentioned above, arelikewise possible.

In some aspects of the present disclosure, the sheet-metal blank isplaced in the hot-forming and press-quenching tool by the at least oneblank gripper before hot forming and press quenching, and/or is removedfrom the hot-forming and press-quenching tool by the at least one blankgripper after hot forming and press quenching.

Further areas of applicability will become apparent from the descriptionprovided herein. It should be understood that the description andspecific examples are intended for purposes of illustration only and arenot intended to limit the scope of the present disclosure.

DRAWINGS

In order that the disclosure may be well understood, there will now bedescribed various forms thereof, given by way of example, referencebeing made to the accompanying drawings, in which:

FIG. 1 shows a side view of a segment of one illustrative form of ahot-forming line according to the teachings of the present disclosure;

FIG. 2 shows a plan view of one illustrative form of a blank gripper ofthe hot-forming line from FIG. 1;

FIG. 3 shows a perspective view of a first transfer section of asheet-metal blank to be hot formed and press quenched from thehot-forming line in FIG. 1;

FIG. 4 shows a perspective view of a second transfer section of ahot-formed and press-quenched sheet-metal blank from the hot-formingline in FIG. 1; and

FIG. 5 shows a perspective view of a sheet-metal blank to be hot formedand press quenched with sheet regions at different temperatures broughtabout by the hot-forming line from FIG. 1.

The drawings described herein are for illustration purposes only and arenot intended to limit the scope of the present disclosure in any way.

DETAILED DESCRIPTION

The following description is merely exemplary in nature and is notintended to limit the present disclosure, application, or uses. Itshould be understood that throughout the drawings, correspondingreference numerals indicate like or corresponding parts and features.

FIG. 1 shows schematically a side view of a segment of one illustrativeform of a hot-forming line 1 according to the teachings of the presentdisclosure. The hot-forming line 1 is used to produce hot-formed andpress-quenched sheet-steel products 2, e.g. from the material 22MnB5. Ascan furthermore be gathered from FIG. 1, the illustrated segment of thehot-forming line 1 has a temperature control station 3 for heating atleast one sheet-metal blank 4. The temperature control station 3 can beconfigured to simultaneously heat a plurality of sheet-metal blanks 4,as illustrated in FIG. 1. However, this is not essential, and thereforethe temperature control station 3 can also be configured merely to heata single sheet-metal blank 4 in each case. In the temperature controlstation 3, the sheet-metal blank 4 is heated to about 930° C. for aperiod of a few minutes, e.g. about 6-8 minutes. In the case of contactheating, this process can also take just a few seconds.

Moreover, the hot-forming line 1 illustrated in FIG. 1 has a hot-formingand press-quenching tool 5 for hot forming and press quenching thesheet-metal blank 4 heated beforehand in the temperature control station3. In the hot-forming and press-quenching tool 5, the heated sheet-metalblank 4 is hot formed by forming tools 6 (e.g. female and male dies) andthen rapidly cooled, in particular at a cooling rate greater than 27K/s, in order to produce a martensitic hardening (hardened)microstructure in the sheet-metal blank 4.

Furthermore, the hot-forming line 1 in FIG. 1 has two blank grippers 7for gripping and transferring the sheet-metal blank 4. In theillustrative form shown, a sheet-metal gripper 7 is responsible fortransferring the heated sheet-metal blank 4 coming from the temperaturecontrol station to the hot-forming and press-quenching tool 5 (alsobeing referred to herein as the first blank gripper 7), while a secondblank gripper 7 is provided for removing the hot-formed andpress-quenched sheet-metal blank 4 from the hot-forming andpress-quenching tool 5. It should be understood that a larger number ora smaller number of blank grippers 7 can be provided. In addition to theblank grippers 7, it is furthermore possible to provide a conveyor belt8 for transferring the sheet-metal blanks 4 over relatively largedistances. However, this is not necessary if the transfer distancesbetween the individual stations of the hot-forming line 1 can be crossedby the blank gripper or grippers 7 alone. For this purpose, a blankgripper 7 can be controlled by a robot 9.

In the state of the hot-forming line 1 which is illustrated in FIG. 1, asheet-metal blank 4 to be hot formed and press quenched is currentlybetween the forming tools 6 of the hot-forming and press-quenching tool5, while a sheet-metal blank which has already been hot formed and pressquenched, representing a fully hot-formed and press-quenched sheet-steelproduct 2, is being transferred by the conveyor belt 8 to a station (notshown) of the hot-forming line 1 situated downstream of the hot-formingand press-quenching tool 5. This can be a storage station for thehot-formed and press-quenched sheet-steel products 2, for example.

FIG. 2 shows schematically a plan view of one of the two blank grippers7 of the hot-forming line 1 from FIG. 1 with a sheet-metal blank 4gripped by said gripper.

In FIG. 2, it can be seen that the blank gripper 7 forms two contactregions 10 with the gripped sheet-metal blank 4. That region of thesheet-metal blank 4 which is adjacent to or adjoins the contact regions10 of the sheet-metal blank 4 and is not contacted by the blank gripper7 is denoted herein as a neighboring region 11 of the sheet-metal blank4. As can be seen from FIG. 2, both contact regions 10 of the blankgripper 7 in the illustrative form shown are of flat design and eachcorrespond, for example, to a joining section, in particular aconnecting flange, of the sheet-metal blank 4 or of the finishedsheet-steel product 2, by means of which the sheet-steel product 2 cansubsequently be joined to other components or sheet-steel products, inparticular by thermal joining techniques such as welding or spotwelding.

Both blank grippers 7 of the hot-forming line 1 are of substantiallyidentical design in respect of the contact region 10 formed by thesheet-metal blank 4, and therefore the statements in this regard thatrelate to one of the two blank grippers 7 apply in the same way also tothe other blank gripper 7. The two blank grippers 7 of the hot-formingline 1 differ only in the manner of heat transfer that takes placebetween them and the sheet-metal blank 4 gripped by them. Whereas thefirst blank gripper 7, which is arranged between the temperature controlstation 3 and the hot-forming and press-quenching tool 5, provides heattransfer away from the contact region 10 of the sheet-metal blank 4,that is to say therefore for reducing the temperature of the contactregion 10 in the manner described herein, the second blank gripper 7,which is arranged downstream of the hot-forming and press-quenching tool5, provides heat to the contact region 10 of the formed andpress-quenched sheet-metal blank 4 in order to heat the contact regions10 in the manner described herein.

Thus, the first blank gripper 7 of the illustrative hot-forming line 1shown in FIG. 1 is configured to cool the sheet-metal blank 4 duringgripping and transfer, before hot forming and press quenching, in thecontact regions 10 in relation to the uncontacted neighboring region 11of the sheet-metal blank 4, and the second blank gripper 7 is configuredto heat the sheet-metal blank 4 during gripping and transfer, after hotforming and press quenching, in the contact regions 10 in relation tothe uncontacted neighboring region 11 of the sheet-metal blank 4adjoining the contact regions 10. For this purpose, the first blankgripper 7 has appropriate active and/or passive heat dissipation means(not illustrated), and the second blank gripper 7 has corresponding heatsupply means (likewise not illustrated).

Attention may once again be drawn at this point to the fact that the twoblank grippers 7 in the illustrative hot-forming line 1 illustrated inFIG. 1, which are configured in the manner described above, do notnecessarily have to be configured in the manner described above. Thus,in a different illustrative form of a hot-forming line according to thepresent disclosure which is not illustrated, it would be possible, forexample, for just the first blank gripper 7 to be configured for theheat dissipation described herein from the contact region 10 of thesheet-metal blank 4 to the blank gripper 7, while the second blankgripper 7 could also be configured without any heat supply means. Itwould likewise be possible for just the second blank gripper 7 to beconfigured for heat supply from the blank gripper 7 to the contactregion 10 of the sheet-metal blank 4, in which case it would then bepossible for the first blank gripper 7 not to have heat dissipationmeans. In both cases, a hot-forming line of this kind would make thecontact region 10 of the sheet-metal blank 4 softer and more ductilethan the martensitically hardened region 11 of the sheet-metal blank 4in order to overcome the disadvantages in the prior art which weredescribed at the outset. However, a hot-forming line 1 of the kindillustrated in FIG. 1, having two blank grippers 7 for active heating,can even further increase the effectiveness of the selective heattreatment, described herein, of the contact regions 10 of thesheet-metal blank 4.

The first blank gripper 7 is configured to cool the contact regions 10of the sheet-metal blank 4 at a cooling rate of less than 27 K/s beforehot forming and press quenching. The second blank gripper 7 isconfigured to heat the contact regions 10 of the sheet-metal blank 4,after hot forming and press quenching, to a temperature greater than atemperature of the uncontacted neighboring region 11 of the sheet-metalblank 4 but to no more than 900° C., for example to at most about 500°C. or to at most about 300° C.

FIG. 3 shows a perspective view of a first transfer section 12 of asheet-metal blank 4 to be hot formed and press quenched from thehot-forming line 1 in FIG. 1. This first transfer section 12 representsthe section of the hot-forming line 1 between the temperature controlstation 3 and the hot-forming and press-quenching tool 5, which is notillustrated in FIG. 3. A transfer direction 13 is illustrated bycorresponding arrows.

FIG. 4 shows a perspective view of a second transfer section 14 of ahot-formed and press-quenched sheet-metal blank 4 or sheet-steel product2 from the hot-forming line 1 in FIG. 1. This second transfer section 14represents the section of the hot-forming line 1 which is situateddownstream of the hot-forming and press-quenching tool 5, wherein onlythe lower forming tool 6 of the hot-forming and press-quenching tool 5is visible.

FIG. 5 shows a perspective view of a sheet-metal blank 4 to be hotformed and press quenched with sheet regions 15 and 16 at differenttemperatures brought about by the hot-forming line 1 from FIG. 1. Inparticular, the temperature regions 15 represent regions of thesheet-metal blank 4 at a high temperature and the temperature regions 16represent regions of the sheet-metal blank 4 at a low temperature. Therespective temperature regions 15, 16 can be produced in the mannerdescribed herein by correspondingly configured blank grippers 7 of thekind described in relation to the hot-forming line 1 illustrated in FIG.1.

The above-described hot-forming line according to the teachings of thepresent disclosure and the method according to the teachings of thepresent disclosure for producing hot-formed and press-quenchedsheet-steel products are not restricted to the forms and aspectsdisclosed herein but also include further forms and aspects acting inthe same way which emerge from technically worthwhile furthercombinations of the features described herein.

Unless otherwise expressly indicated herein, all numerical valuesindicating mechanical/thermal properties, compositional percentages,dimensions and/or tolerances, or other characteristics are to beunderstood as modified by the word “about” or “approximately” indescribing the scope of the present disclosure. This modification isdesired for various reasons including industrial practice, manufacturingtechnology, and testing capability.

As used herein, the phrase at least one of A, B, and C should beconstrued to mean a logical (A OR B OR C), using a non-exclusive logicalOR, and should not be construed to mean “at least one of A, at least oneof B, and at least one of C.”

The description of the disclosure is merely exemplary in nature and,thus, variations that do not depart from the substance of the disclosureare intended to be within the scope of the disclosure. Such variationsare not to be regarded as a departure from the spirit and scope of thedisclosure.

What is claimed is:
 1. A hot-forming line for producing hot-formed andpress-quenched sheet-steel products comprising: a temperature controlstation for heating at least one sheet-metal blank; a hot-forming andpress-quenching tool for hot forming and press quenching the heatedsheet-metal blank; and at least one blank gripper for gripping andtransferring the sheet-metal blank before hot forming and pressquenching, after hot forming and press quenching or before and after hotforming and press quenching, wherein: the at least one blank gripperforms at least one contact region with the sheet-metal blank during thegripping of the sheet-metal blank and the at least one blank gripper isconfigured to at least one of: cool the sheet-metal blank in the atleast one contact region in relation to an uncontacted neighboringregion adjoining the contact region during gripping and transferringbefore hot forming and press quenching, and heat the sheet-metal blankin the at least one contact region in relation to the uncontactedneighboring region adjoining the contact region during gripping andtransferring after hot forming and press quenching.
 2. The hot-formingline according to claim 1, wherein the at least one blank gripper isconfigured to cool the at least one contact region at a cooling rate ofless than 27 K/s before hot forming and press quenching of thesheet-metal blank.
 3. The hot-forming line according to claim 1, whereinthe at least one blank gripper is configured to heat the at least onecontact region after hot forming and press quenching of the sheet-metalblank to a temperature greater than a temperature of the uncontactedneighboring region of the sheet-metal blank adjoining the contact regionand to no more than 900° C.
 4. The hot-forming line according to claim1, wherein the at least one contact region is arranged in a joiningsection of the sheet-metal blank configured for joining the hot-formedand press-hardened sheet-steel product to another component.
 5. Thehot-forming line according to claim 4, wherein the joining section ofthe sheet-metal blank is a connecting flange.
 6. The hot-forming lineaccording to claim 1, wherein the at least one blank gripper isconfigured to place the sheet-metal blank in the hot-forming andpress-quenching tool before hot forming and press quenching.
 7. Thehot-forming line according to claim 1, wherein the at least one blankgripper is configured to remove the sheet-metal blank from thehot-forming and press-quenching tool after hot forming and pressquenching.
 8. The hot-forming line according to claim 1, wherein the atleast one blank gripper is configured to place the sheet-metal blank inthe hot-forming and press-quenching tool before hot forming and pressquenching, and to remove the sheet-metal blank from the hot-forming andpress-quenching tool after hot forming and press quenching.
 9. Thehot-forming line according to claim 1, wherein the at least one blankgripper comprises: a first blank gripper configured to cool thesheet-metal blank in the at least one contact region in relation to theuncontacted neighboring region during gripping and transferring by thefirst blank gripper before hot forming and press quenching; and a secondblank gripper configured to heat the sheet-metal blank in the at leastone contact region in relation to the uncontacted neighboring regionduring gripping and transferring by the second blank gripper after hotforming and press quenching.
 10. The hot-forming line according to claim9, wherein the first blank gripper is configured to cool the contactregion at a cooling rate of less than 27 K/s before hot forming andpress quenching of the sheet-metal blank and the second blank gripper isconfigured to heat the contact region after hot forming and pressquenching of the sheet-metal blank to a temperature greater than atemperature of the uncontacted neighboring region of the sheet-metalblank adjoining the contact region and to no more than 900° C.
 11. Thehot-forming line according to claim 9, wherein the first blank gripperis configured to place the sheet-metal blank in the hot-forming andpress-quenching tool before hot forming and press quenching, and thesecond blank gripper is configured to remove the sheet-metal blank fromthe hot-forming and press-quenching tool after hot forming and pressquenching.
 12. A hot-forming line for producing hot-formed andpress-quenched sheet-steel products comprising: a temperature controlstation for heating at least one sheet-metal blank; a hot-forming andpress-quenching tool for hot forming and press quenching the heatedsheet-metal blank; a first blank gripper for gripping and transferringthe sheet-metal blank before hot forming and press quenching, whereinthe first blank gripper is configured to form and cool at least onecontact region with the sheet-metal blank in relation to an uncontactedneighboring region adjoining the contact region during the gripping ofthe sheet-metal blank by the first blank gripper; and a second blankgripper for gripping and transferring the sheet-metal blank after hotforming and press quenching, wherein the second blank gripper isconfigured to heat the at least one contact region in relation to theuncontacted neighboring region of the sheet-metal blank adjoining thecontact region during the gripping of the sheet-metal blank by thesecond blank gripper.
 13. The hot-forming line according to claim 12,wherein the first blank gripper is configured to place the sheet-metalblank in the hot-forming and press-quenching tool before hot forming andpress quenching, and the second blank gripper is configured to removethe sheet-metal blank from the hot-forming and press-quenching toolafter hot forming and press quenching.
 14. A method for producinghot-formed and press-quenched sheet-steel products comprising: heatingat least one sheet-metal blank in a temperature control station; hotforming and press quenching the heated sheet-metal blank in ahot-forming and press-quenching tool; and gripping and transferring thesheet-metal blank with at least one blank gripper, wherein the at leastone blank gripper grips and transfers the sheet-metal blank before hotforming and press quenchings, grips and transfers the sheet-metal blankafter hot forming and press quenching, or grips and transfers thesheet-metal blank before and after hot forming and press quenching, andwherein the sheet-metal blank is at least one of: cooled by the blankgripper, before hot forming and press quenching, in at least one contactregion formed during gripping and transfer by the blank gripper, inrelation to an uncontacted neighboring region of the sheet-metal blankadjoining the contact region, and heated by means of the blank gripper,after hot forming and press quenching, in the at least one contactregion, in relation to the uncontacted neighboring region of thesheet-metal blank adjoining the contact region.
 15. The method accordingto claim 14 further comprising cooling the sheet-metal blank in thecontact region by the blank gripper at a cooling rate of less than 27K/s before hot forming and press quenching.
 16. The method according toclaim 14 further comprising heating the sheet-metal blank in the contactregion by the at least one blank gripper after hot forming and pressquenching to a temperature greater than a temperature of the uncontactedneighboring region of the sheet-metal blank adjoining the contact regionand to no more than 900° C.
 17. The method according to claim 14 furthercomprising placing the sheet-metal blank in the hot-forming andpress-quenching tool by the at least one blank gripper before hotforming and press quenching.
 18. The method according to claim 14further comprising removing the sheet-metal blank from the hot-formingand press-quenching tool by the at least one blank gripper after hotforming and press quenching.
 19. The method according to claim 14further comprising placing the sheet-metal blank in the hot-forming andpress-quenching tool by the at least one blank gripper before hotforming and press quenching, and removing the sheet-metal blank from thehot-forming and press-quenching tool by the at least one blank gripperafter hot forming and press quenching.
 20. The method according to claim14, wherein the at least one blank gripper comprises: a first blankgripper for gripping and transferring the sheet-metal blank before hotforming and press quenching, wherein the first blank gripper forms andcools the at least one contact region in relation to the uncontactedneighboring region adjoining the contact region during the gripping ofthe sheet-metal blank by the first blank gripper; and a second blankgripper for gripping and transferring the sheet-metal blank after hotforming and press quenching, wherein the second blank gripper heats theat least one contact region in relation to the uncontacted neighboringregion adjoining the contact region during the gripping of thesheet-metal blank by the second blank gripper.